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Xiao Yang Wu

from San Diego, CA
Age ~53
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Also known as:
Xiao Yun Wu, Xiao Y Wu, Xiao Fei Wu, Xiao F Wu, Charlie Yang Wu, Charlie Wu Yang, Yang Wu Xiao, Xiaoyang Wu, Xiao Yangwu, Xiad Wu
Related to:
Chang R Yang, 50Shihua Wu, 39Yun G Yang, 49Hui F Wu, 66Yong C Yang, 51
Connected to:
Agna J Wu, 42Al Y Wu, 87Alena C Wu, 55Alis W Wu, 35Altaira R Wu, 52Amanda B Wu, 42Amy Wu, 51Anastasia M Wu, 46Andi Wu, 35Andria J Wu, 34

Xiao Wu Phones & Addresses

  • San Diego, CA
  • San Marcos, CA
  • Richmond, KY
  • Easley, SC
  • 3209 Wade Hampton Blvd, Taylors, SC 29687
  • Woodland Hills, CA
  • Kokomo, IN
  • Monterey Park, CA
  • Norwalk, CA

Professional Records

Lawyers & Attorneys

Xiao Wu Photo 1

Xiao Wu - Lawyer

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Licenses:
New York - Currently registered 2012
Education:
University of Connecticut School of Law

Business Records

Name / Title
Company / Classification
Phones & Addresses
Xiao Wu
Partner
G&r Technology Inc
1501 E Bardin Rd, Thousand Oaks, CA 91360
Xiao Wu
Owner
Jim Jin Chinese Restaurant
Eating Place
720 S Pendleton St, Easley, SC 29640
(864) 855-8818
Xiao Ling Wu
FEI DA, INC
Xiao Wu
Partner
G&r Technology Inc
1501 E Bardin Rd, Thousand Oaks, CA 91360

Publications

Isbn (Books And Publications)

Zhongguo Hua Qiao Hua Ren Xue: Xue Ke Ding Wei Yu Yan Jiu Zhan Wang

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Author

Xiao an Wu

ISBN #

7301101058

Us Patents

Large Packet Concatenation In Satellite Communication System

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US Patent:
8107368, Jan 31, 2012
Filed:
Mar 20, 2009
Appl. No.:
12/408543
Inventors:
Dennis Patrick Connors - San Diego CA, US
Matthew John Freier - Carlsbad CA, US
James Edward Deveau - Carlsbad CA, US
Xiao Wu - Temecula CA, US
Kristi Ann Jaska - Encinitas CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04L 1/00
US Classification:
370230, 370252, 370468, 4554521
Abstract:
Upstream information arriving through a gateway from a user terminal in a satellite link subject to propagation delay is efficiently scheduled through a modified Demand Assigned Multiple Access (DAMA) algorithm such that arriving data packets arriving at the software queue at the user terminal are concatenated to form a large frame for transmission to improve efficiency. A piggyback request replacing a conventional DAMA contention request for the succeeding packet is issued to request bandwidth allocation for the succeeding concatenated packet. In a specific embodiment, all packets up to the physical request limit arriving at the user terminal since a prior piggyback request or contention request are concatenated so that all currently known packets (up to that limit) are accounted for by the next piggyback request.

Map-Triggered Dump Of Packets In Satellite Communication System

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US Patent:
8107410, Jan 31, 2012
Filed:
Mar 20, 2009
Appl. No.:
12/408614
Inventors:
Dennis Patrick Connors - San Diego CA, US
Matthew John Freier - Carlsbad CA, US
James Edward Deveau - Carlsbad CA, US
Xiao Wu - Temecula CA, US
Kristi Ann Jaska - Encinitas CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04B 7/185
US Classification:
370316
Abstract:
Upstream information arriving through a user terminal in a satellite link is efficiently scheduled through a modified Demand Assigned Multiple Access (DAMA) algorithm such that data packets arriving at the user terminal are concatenated to form a larger frame for transmission and the concatenated packet is held in a first queue disposed ahead of a second queue, where the data in the second queue cannot be modified (typically a hardware queue), sufficient to allow the second queue to be emptied. In a specific embodiment, all packets arriving at the user terminal since a prior piggyback request are concatenated so that all currently known packets (up to a preselected limit) are accounted for by each succeeding piggyback request. Since it is desirable to concatenate all packets that arrive at the user terminal since the last piggyback request, the piggyback request according to the invention covers all currently known packets (up to the preselected limit) in the user terminal. The held-back packets are released or dumped to the second queue by a trigger operative according to a map, the map being a grant allocation schedule.

Web-Bulk Transfer Preallocation Of Upstream Resources In A Satellite Communication System

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US Patent:
8218473, Jul 10, 2012
Filed:
Mar 23, 2009
Appl. No.:
12/409306
Inventors:
Dennis Patrick Connors - San Diego CA, US
Matthew John Freier - Carlsbad CA, US
James Edward Deveau - Carlsbad CA, US
Xiao Wu - Temecula CA, US
Kristi Ann Jaska - Encinitas CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04B 7/185
US Classification:
370316
Abstract:
In a data over satellite system, preallocation of upstream channel resources is provided by a scheduler at the gateway satellite modem termination system (SMTS) in response from the user terminal, wherein the user terminal detects web browser and/or bulk transfers involving large amounts of data transfer from users via the upstream channel. A type length value (TLV) field is included with data packets transmitted to the gateway SMTS, at which excess transfer capability is allocated to the user terminal in anticipation of load requirements.

Upfront Delayed Concatenation In Satellite Communication System

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US Patent:
20090290534, Nov 26, 2009
Filed:
Mar 18, 2009
Appl. No.:
12/406900
Inventors:
Dennis Patrick Connors - San Diego CA, US
Matthew John Freier - Carlsbad CA, US
James Edward Deveau - Carlsbad CA, US
Xiao Wu - Temecula CA, US
Kristi Ann Jaska - Encinitas CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04B 7/204
US Classification:
370319
Abstract:
Upstream information at a user terminal in a satellite network is efficiently scheduled through a Demand Assigned Multiple Access (DAMA) algorithm that delays transmission of the first packet's bandwidth allocation request in order to allow subsequent packets to be included in the first packet's bandwidth allocation request (up-front delayed concatenation) in order to minimize delay due to the long round trip time and overhead in packet processing and packet transmission through a hardware queue. Rather than merely the size of the next packet, the size of the entire concatenated frame is communicated to the scheduler, which may be distributed between the user satellite modem and the gateway, to prepare the schedule, where the schedule is the basis of the upstream transmission of the various associated user terminals. Optimal delay is a function of traffic pattern and the scheduling delay including round-trip delay.

Profile-Based Bandwidth Scheduler

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US Patent:
20100091699, Apr 15, 2010
Filed:
Oct 15, 2009
Appl. No.:
12/580108
Inventors:
Xiao Wu - Temecula CA, US
Bill Hallstrom - Rancho Santa Fe CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04B 7/185
H04W 72/12
US Classification:
370316, 370329
Abstract:
A profile-based scheduler is disclosed. In other embodiments, the profile-based scheduler may profile previously accessed websites and/or FTP sites. In doing so, the profile may compile bandwidth requirements for all such profiled websites and/or FTP sites within a lookup table. When a website and/or FTP site is accessed, the profiler may grant the bandwidth associated with the website or FTP site within the lookup table. In some embodiments, the profiler may create entries not only based on websites and/or FTP sites but may also profile users, TCP connections, web browser configurations and/or web browser types.

Satellite Traffic And Congestion-Based Upstream Scheduler

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US Patent:
20100097932, Apr 22, 2010
Filed:
Oct 15, 2009
Appl. No.:
12/580088
Inventors:
Xiao Wu - Temecula CA, US
Assignee:
ViaSat, Inc. - Carlsbad CA
International Classification:
H04L 1/00
H04B 7/185
US Classification:
370235, 370316
Abstract:
Systems and methods for implementing a traffic and congestion-based scheduler. The method includes receiving a bandwidth request. The method further includes analyzing the application type to determine which of a plurality of schedulers is best equipped to efficiently service the bandwidth request based on the application type, analyzing network traffic patterns of the client to determine which of the plurality of schedulers is best equipped to efficiently service the bandwidth request based on the network traffic patterns of the client, and analyzing congestion of the satellite link to determine which of the plurality of schedulers is best equipped to efficiently service the bandwidth request based on the congestion of the satellite link. Further, the method includes, based on the analysis of the application type, the network traffic patterns of the client, and the congestion of the satellite, selecting a scheduler, and sending the bandwidth request to the selected scheduler.
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Xiao Yang Wu from San Diego, CA, age ~53 Get Report